CN211692232U

CN211692232U - Single-handle wire-control built-in shutter hollow glass window

Info

Publication number: CN211692232U
Application number: CN201922094631.5U
Authority: CN
Inventors: 王爱明
Original assignee: Muding Energy Saving Technology Co ltd
Current assignee: Jianlang Muding Energy Saving Technology Jiangsu Co ltd
Priority date: 2019-11-28
Filing date: 2019-11-28
Publication date: 2020-10-16
Anticipated expiration: 2029-11-28

Abstract

The utility model discloses a built-in tripe cavity glass window of single handle drive-by-wire: it includes: the frame (1), install 2 toughened glass (2) in frame (1) outside, encapsulate built-in blind (3) in the middle of 2 toughened glass (2), lift system (4) and dimming system (5) that link to each other with built-in blind (3). The utility model provides a built-in tripe cavity glass window of single handle drive-by-wire, structural design is reasonable, with the angle seat gyro wheel of going up and down usefulness and the ingenious set of the gyro wheel of adjusting luminance of usefulness in the angle seat subassembly, compact structure does not account for the space, and can conveniently adjust the tripe curtain through interior magnetic assembly and go up and down and adjust luminance. The utility model discloses a 1 stay cord forms return circuit structure, uses a period back when the lifting rope, and when two side lifting rope elongation of blind were inconsistent, the lifting rope can adjust length by oneself, and the tripe that maintains both sides is in the horizontality all the time, can not appear inclining, and life is longer.

Description

Single-handle wire-control built-in shutter hollow glass window

Technical Field

The invention relates to a glass window, in particular to a single-handle wire-control built-in hollow glass louver window convenient for dimming and stretching.

Background

With the rapid development of the building industry and the improvement of the requirements on environmental protection and energy conservation, the built-in louver hollow glass window is widely applied to various buildings, at present, the dimming rope and the lifting rope of the built-in louver hollow glass window in the prior art are wound by the rope rotating cylinder, the winding volume of the rope rotating cylinder is large, and the design cost is high. Two ends of the lifting rope of the built-in shutter hollow glass window of current patent 201110065482.5 in addition are knotted respectively in the shutter plate bottom, the lifting rope uses after a period, two side lifting rope rate of expansion is inconsistent, lead to the out-of-level slope of two sides' tripe, lead to the out-of-level and the slope appears in the tripe curtain, the stay cord axostylus axostyle of the lift of this patent and the runner seat and the runner of adjusting luminance separately design in addition, lead to manufacturing cost high, the installation is complicated, and the axial removal can appear in the working process in the pivot of this patent.

Therefore, it is necessary to research and design a single-handle line-control built-in hollow glass shutter which has reasonable structural design, is more convenient to lift and adjust light and can keep the shutter in a horizontal state for long-term use on the basis of the prior art.

Disclosure of Invention

The purpose of the invention is as follows: the invention aims to solve the defects of the prior art and provides a single-handle line-control built-in hollow glass shutter which is reasonable in structural design, low in manufacturing cost, more convenient to lift and adjust light, capable of keeping a shutter curtain in a horizontal state for long-term use and not inclined.

The technical scheme is as follows: in order to achieve the above purpose, the invention adopts the technical scheme that:

a single-handle wire-control built-in hollow glass louver is characterized by comprising: the frame, 2 pieces of toughened glass installed outside the frame, a built-in blind packaged in the middle of the 2 pieces of toughened glass, a lifting system and a dimming system connected with the built-in blind;

the lifting system comprises an inner magnet assembly, an angle seat assembly, a first bracket, a first wire rope corner roller, a second bracket and a second wire rope corner roller; the upper end of the inner magnet assembly is provided with an inner magnet seat lifting roller, one end of a lifting rope bypasses the inner magnet seat lifting roller and then extends upwards, bypasses a corner seat roller in the corner seat assembly, passes through a side hole of the first support and then bypasses a first line rope corner roller positioned below the inner side of the first support, then passes through the blind curtain from top to bottom and then horizontally extends along the inner part of the weight rod at the bottommost end, then passes through the blind curtain from bottom to top, then bypasses a second line rope corner roller positioned below the inner side of the second support, then passes through a side hole at the side edge of the second support and then horizontally extends, passes through the side holes at two sides of the first support, then bypasses the corner seat roller and extends downwards, bypasses the inner magnet assembly lifting roller, then extends upwards to pass through the fixing buckle and then is connected with the other end, and a lifting rope loop is;

the dimming system comprises a dimming rope connected to the upper end of the inner magnet assembly, a dimming roller in the angle seat assembly, a dimming roller shaft fixedly connected with the dimming roller, a semicircular transmission shaft inserted into the dimming roller shaft, two dimming wheels fixed on the transmission shaft and a shutter overturning rope wound on the two dimming wheels; the upper end of the dimming rope is sleeved in the V-shaped groove of the dimming roller; the transmission shaft is arranged in grooves at two sides of the first bracket and the second bracket, and the two dimming wheels are respectively positioned in the grooves in the first bracket and the second bracket; the two dimming wheels are respectively positioned above the first line rope corner roller and the second line rope corner roller;

the louver curtain comprises louver blades, a ladder belt connected with the louver blades in series, louver overturning ropes positioned at the upper end of the ladder belt and used for adjusting light, and counterweight rods positioned at the bottom ends of the louver blades, wherein the lower ends of the ladder belt are fixed on the counterweight rods;

an angle seat assembly is arranged above the inner magnet assembly, a tensioning assembly is arranged below the inner magnet assembly, one end of the dimming rope is fixed at the upper end of the inner magnet assembly, extends upwards to bypass a dimming roller in the angle seat assembly, extends downwards to bypass a tensioning wheel in the tensioning assembly, and then extends upwards to be fixed with the lower end of the inner magnet assembly to form a tensioning loop with buffering;

the inner magnet assembly is positioned between the angle seat assembly and the tensioning assembly, and the three assemblies are positioned on the same side; the inner magnet assembly and the outer magnet handle on the outer surface of the indoor toughened glass are attracted by magnetic force to form a magnetic control combination;

the angle seat assembly comprises an angle seat body, an angle seat roller arranged below the inside of the angle seat body through an angle seat roller shaft, and a dimming roller arranged above the inside of the angle seat body, wherein the angle seat body is provided with a hole for screwing a set screw, and the bottom of the angle seat body is provided with a hole for plugging a lifting rope; the side edge of the corner seat body is provided with an upper fixing buckle used for being arranged in the frame;

the tensioning assembly comprises a tensioning wheel seat, a sliding block arranged in the tensioning wheel seat and a tensioning wheel arranged in the sliding block through a tensioning wheel shaft, wherein a convex shaft is arranged at the upper part of the sliding block, a pressure spring is sleeved on the convex shaft, and the pressure spring gives a buffer force to the sliding block; the side edge of the tensioning wheel seat is provided with a lower fixing buckle for installing the frame; the tensioning wheel is sleeved with a tensioning rope.

As a preferred scheme, the single-handle line-control built-in hollow louver glass window comprises a frame, a left frame, a right frame and a spacer bar at the bottom; the upper frame, the left frame and the right frame are spliced together through an angle of 45 degrees and then fixed through two upper corner connectors, and the spacing bar at the bottom is fixed with the left frame and the right frame through two lower corner connectors; and drying agents are arranged in the spacing bars at the left frame and the bottom.

Preferably, the single-handle line control built-in hollow louver glass window is characterized in that the upper end of the dimming rope is sleeved in the V-shaped groove of the dimming roller and is wound by a half circle.

Preferably, the single-handle line control built-in hollow louver glass window is characterized in that the louver turning rope is wound on the dimming wheel for 1 and a half turns.

Preferably, the single-handle line-control built-in hollow glass shutter is characterized in that a weight lever at the bottom of the shutter is elastically buckled by a bottom piece and a cover piece, and two ends of the weight lever are fixed by end covers.

As the preferred scheme, the single-handle line control built-in shutter hollow glass window is characterized in that a balancing weight can be additionally arranged below the inner magnet assembly.

The single-handle wire-controlled built-in hollow glass shutter is characterized in that a semicircular transmission shaft is inserted into the dimming roller shaft, and then a screw is screwed in and fixed through a hole in the angle seat body to prevent the semicircular transmission shaft from moving axially.

Preferably, the single-handle wire-controlled built-in hollow louver glass window comprises 2 lifting ropes, and the lifting system comprises a first bracket, a second bracket and a third bracket positioned between the first bracket and the second bracket; one end of the 2 nd lifting rope penetrates through the fixing buckle and then is combined with the first lifting rope, the other end of the 2 nd lifting rope extends upwards after bypassing the inner magnetic seat lifting roller, bypasses the angle seat roller in the angle seat assembly and then penetrates through the side hole of the first support, then penetrates through the side hole of the third support, then bypasses the third wire rope corner roller below the inner side of the third support, then penetrates through the blind from top to bottom, and is combined and fixed in the weight rod at the bottom end of the blind;

as a preferred scheme, the single-handle wire-controlled built-in hollow louver glass window is characterized in that 3 light adjusting wheels are fixed on a transmission shaft, the 3 light adjusting wheels are respectively installed in a first support, a second support and a third support, and louver overturning ropes are wound on the 3 light adjusting wheels.

Has the advantages that: compared with the prior art, the single-handle line control built-in shutter hollow glass window has the following advantages that:

the single-handle wire-control built-in shutter hollow glass window provided by the invention has reasonable structural design, skillfully integrates the angle seat roller for lifting and the dimming roller for dimming in the angle seat component, has compact structure, does not occupy space, and can be conveniently adjusted to lift and dim light through the inner magnet component. Particularly, the invention adopts the pull rope to form a loop structure, when the extension amounts of the lifting ropes on the two sides of the blind are inconsistent after the lifting ropes are used for a period of time, the lifting ropes can automatically adjust the length, the blinds on the two sides are always kept in a horizontal state, no inclination occurs, and the service life is longer. And 1 to 3 lifting ropes can be designed according to the width of the blind.

Drawings

Fig. 1 is a schematic view of an assembly structure of a single-handle drive-by-wire built-in hollow glass shutter provided by the invention.

Fig. 2 is a schematic structural view of the blind and the lifting system and the dimming system provided by the present invention.

Fig. 3 is a partially enlarged schematic view of fig. 2.

Fig. 4 is a schematic structural diagram of the lifting system provided in the present invention.

Fig. 5 is a schematic structural diagram of a dimming system provided in the present invention.

Fig. 6 is a schematic partial structure diagram of a dimming system and a lifting system provided by the present invention.

Fig. 7 is a schematic structural view of the corner seat assembly provided by the present invention before assembly.

Fig. 8 is a schematic structural view of the assembled corner fitting assembly provided by the present invention.

Fig. 9 is a schematic structural view of the tension assembly provided by the present invention before assembly.

Figure 10 is a schematic assembled construction of the tension assembly provided by the present invention.

Fig. 11 is a schematic structural diagram of a frame provided in the present invention.

Fig. 12 is a schematic structural diagram of a first bracket provided by the present invention.

Fig. 13 is a schematic structural view of a second bracket provided by the present invention.

Fig. 14 is a schematic structural view of a large-sized blind with 2 lift cords.

Detailed Description

The present invention is further illustrated by the following figures and specific examples, which are to be understood as illustrative only and not as limiting the scope of the invention, which is to be given the full breadth of the appended claims and any and all equivalent modifications thereof which may occur to those skilled in the art upon reading the present specification.

As shown in fig. 1 to 7, a single-handle line-controlled built-in venetian blind, hollow glass window includes: the device comprises a frame 1, 2 pieces of toughened glass 2 arranged in the frame 1, a blind 3 packaged in the middle of the 2 pieces of toughened glass 2, a lifting system 4 connected with the blind 3 and a dimming system 5;

the lifting system 4 comprises an inner magnet assembly 4-1, an angle seat assembly 4-2, a first bracket 4-3, a first wire rope corner roller 4-4, a second bracket 4-5 and a second wire rope corner roller 4-6; an inner magnetic seat lifting roller 4-7 is installed at the upper end of the inner magnet assembly 4-1, one end of a lifting rope 4-8 bypasses the inner magnetic seat lifting roller 4-7 and extends upwards, bypasses a corner seat roller 4-2-3 positioned in the corner seat assembly 4-2, passes through one first side hole 4-3-1 of two parallel side holes of the first support 4-3, bypasses a first line rope corner roller 4-4 positioned below the inner side of the first support 4-3, then passes through the blind 3 from top to bottom and extends horizontally along a weight rod at the bottommost end, then passes through the blind 3 from bottom to top, then bypasses a second line rope corner roller 4-6 positioned below the inner side of the second support 4-5, then passes through a second side hole 4-5-1 at the side edge of the second support 4-5 and extends horizontally, after passing through another first side hole 4-3-1 on two sides of the first bracket 4-3, the lifting rope passes through the fixing buckle upwards after passing through the angle seat roller 4-2-3 and extending downwards to pass through the inner magnetic seat lifting roller 4-7, and then is connected with the other end to form a lifting rope loop;

the dimming system 5 comprises a dimming rope 5-1 connected to the upper end of the inner magnet assembly 4-1, a dimming roller 5-2 in the angle seat assembly 4-2, a dimming roller shaft 5-3 fixedly connected with the dimming roller 5-2, a semicircular transmission shaft 5-4 inserted into the dimming roller shaft 5-3, two dimming wheels 5-5 fixed on the transmission shaft 5-4 and a shutter turning rope 5-6 which winds 1 circle and a half on the two dimming wheels 5-5; the upper end of the dimming rope 5-1 is sleeved in the V-shaped groove of the dimming roller 5-2 and is wound by a half circle; the transmission shaft 5-4 is arranged in grooves at two sides of the first bracket 4-3 and the second bracket 4-5, and the two light adjusting wheels 5-5 are respectively positioned in the grooves inside the first bracket 4-3 and the second bracket 4-5; two dimming wheels 5-5 are respectively positioned above the first wire rope corner roller 4-4 and the second wire rope corner roller 4-6;

the louver curtain 3 comprises louver blades 3-1, ladder belts 3-2 connected with the louver blades 3-1 in series, louver overturning ropes 5-6 used for adjusting light and counterweight rods positioned at the bottom ends of the louver blades 3-1 and positioned at the upper ends of the ladder belts 3-2, and the lower ends of the ladder belts 3-2 are fixed on the counterweight rods;

an angle seat assembly 4-2 is arranged above the inner magnet assembly 4-1, a tensioning assembly 7 is arranged below the inner magnet assembly 4-1, one end of a dimming rope 5-1 is fixed at the upper end of the inner magnet assembly 4-1, and then extends upwards to bypass a dimming roller 5-2 in the angle seat assembly 4-2, extends downwards to bypass a tensioning wheel 7-4 in the tensioning assembly 7, and then extends on the net to be fixed with the lower end of the inner magnet assembly 4-1 to form a tensioning loop with buffering;

the inner magnet assembly 4-1 is positioned between the angle seat assembly 4-2 and the tensioning assembly 7; the magnetic control combination is formed by magnetic attraction with an external magnetic handle on the outer surface of the indoor toughened glass 2;

the angle seat assembly 4-2 comprises an angle seat body 4-2-1, an angle seat roller 4-2-3 arranged below the inside of the angle seat body 4-2-1 through an angle seat roller shaft 4-2-2, and a light adjusting roller 5-2 arranged above the inside of the angle seat body 4-2-1, wherein the angle seat body 4-2-1 is provided with a screw hole 4-2-4 for screwing a set screw, and the bottom of the angle seat body 4-2-1 is provided with a hole 4-2-5 for plugging a lifting rope; the side edge of the corner seat body 4-2-1 is provided with an upper fixing buckle 4-2-4 used for being arranged in the frame;

the tensioning assembly 7 comprises a tensioning wheel seat 7-1, a sliding block 7-2 arranged in the tensioning wheel seat 7-1 and a tensioning wheel 7-4 arranged in the sliding block 7-2 through a tensioning wheel shaft 7-3, a protruding shaft 7-5 is arranged at the upper part of the sliding block 7-2, a pressure spring 7-6 is sleeved on the protruding shaft 7-5, and the pressure spring 7-6 gives a buffer force to the sliding block 7-2; the side edge of the tension wheel seat 7-1 is provided with a lower fixing buckle 7-7 used for being arranged in the frame 1.

The frame 1 comprises an upper frame 1-1, a left frame 1-2, a right frame 1-3 and a spacer bar 1-4 at the bottom; the upper frame 1-1, the left frame 1-2 and the right frame 1-3 are spliced together through an angle of 45 degrees and then fixed through two upper corner connectors 1-5, and the spacing bars 1-4 at the bottom are fixed with the left frame 1-2 and the right frame 1-3 through two lower corner connectors 1-6; and drying agents are arranged in the left frame 1-2 and the spacing bars 1-4 at the bottom.

The single-handle wire-control built-in shutter hollow glass window has the advantages that the counterweight block can be selectively arranged below the inner magnet assembly 4-1 according to the size requirement of the glass window. After the semicircular transmission shaft 5-4 is inserted into the dimming roller shaft 5-3, the screw 4-2-7 is screwed and fixed through the screw hole 4-2-4 on the angle seat body 4-2-1, so that the semicircular transmission shaft 5-4 is prevented from moving axially.

The semicircular transmission shaft 5-4 is fixed by screws after being inserted into the dimming roller shaft 5-3, so that the axial movement of the semicircular transmission shaft is prevented, the lifting rope in the blind can be kept vertical better, the level of the blind in the lifting process is guaranteed, the service life is prolonged, and the attractiveness is improved.

Example 2

As shown in FIG. 14, for the venetian blind with a large width dimension, 2 lifting ropes 4-8 can be designed on the basis of embodiment 1, and the lifting system 4 is provided with a first bracket 4-3, a second bracket 4-5 and a third bracket 4-9 positioned between the first bracket 4-3 and the second bracket 4-5; 3 light adjusting wheels 5-5 are fixedly designed on the transmission shaft 5-4, the 3 light adjusting wheels 5-5 are respectively arranged in the first bracket 4-3, the second bracket 4-5 and the third bracket 4-9, and built-in louver overturning ropes 5-6 are wound on the 3 light adjusting wheels 5-5.

On the basis of other structures which are the same as the embodiment, one end of the 2 nd lifting rope is combined with the first lifting rope 4-8, the other end of the 2 nd lifting rope bypasses the inner magnetic seat lifting roller 4-7 and then extends upwards, bypasses the corner seat roller 4-2-3 in the corner seat assembly 4-2, then passes through the first side hole 4-3-1 of the first support 4-3, then passes through the side hole of the third support 4-9, then bypasses the corner roller of the third rope positioned below the inner side of the third support 4-9, and then passes through the blind from top to bottom, and then is combined and fixed in the counterweight rod at the bottom end of the blind. This 2-cord configuration 4-8 is suitable for large-width blinds.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. A single-handle wire-control built-in hollow glass louver is characterized by comprising: the device comprises a frame (1), 2 pieces of toughened glass (2) arranged in the frame (1), a built-in blind (3) packaged in the middle of the 2 pieces of toughened glass (2), a lifting system (4) connected with the built-in blind (3) and a dimming system (5);

the lifting system (4) comprises an inner magnet assembly (4-1), an angle seat assembly (4-2), a first bracket (4-3), a first wire rope corner roller (4-4), a second bracket (4-5) and a second wire rope corner roller (4-6); the upper end of the inner magnet assembly (4-1) is provided with an inner magnet seat lifting roller (4-7), one end of a lifting rope (4-8) extends upwards after bypassing the inner magnet seat lifting roller (4-7), bypasses a corner seat roller (4-2-3) in the corner seat assembly (4-2), passes through a first side hole (4-3-1) of the first support (4-3), bypasses a first line rope corner roller (4-4) positioned below the inner side of the first support (4-3), then passes through the blind curtain (3) from top to bottom and then horizontally extends along a weight rod at the bottom end, then passes through the blind curtain (3) from bottom to top, then bypasses a second line rope corner roller (4-6) positioned below the inner side of the second support (4-5), then passes through a second side hole (4-5-1) at the side of the second support (4-5) and then horizontally extends After passing through the first side holes (4-3-1) on the two sides of the first support (4-3), the lifting rope passes through the fixing buckle upwards after passing through the angle seat idler wheels (4-2-3) and extending downwards to pass through the inner magnetic seat lifting idler wheels (4-7), and then is connected with the other end to form a lifting rope loop;

the dimming system (5) comprises a dimming rope (5-1) connected to the upper end of the inner magnet assembly (4-1), a dimming roller (5-2) in the angle seat assembly (4-2), a dimming roller shaft (5-3) fixedly connected with the dimming roller (5-2), a semicircular transmission shaft (5-4) inserted in the dimming roller shaft (5-3), two dimming wheels (5-5) fixed on the transmission shaft (5-4) and a shutter overturning rope (5-6) wound on the two dimming wheels (5-5); the upper end of the dimming rope (5-1) is sleeved in the V-shaped groove of the dimming roller (5-2); the transmission shaft (5-4) is arranged in grooves at two sides of the first bracket (4-3) and the second bracket (4-5), and the two dimming wheels (5-5) are respectively positioned in the grooves in the first bracket (4-3) and the second bracket (4-5); the two dimming wheels (5-5) are respectively positioned above the first line rope corner roller (4-4) and the second line rope corner roller (4-6);

the blind curtain (3) comprises louver blades (3-1), a ladder belt (3-2) connected with the louver blades (3-1) in series, louver overturning ropes (5-6) positioned at the upper ends of the ladder belt (3-2) and used for adjusting light and counterweight rods positioned at the bottom ends of the louver blades (3-1), wherein the lower ends of the ladder belts (3-2) are fixed on the counterweight rods;

an angle seat assembly (4-2) is arranged above the inner magnet assembly (4-1), a tensioning assembly (7) is arranged below the inner magnet assembly (4-1), one end of a dimming rope (5-1) is fixed at the upper end of the inner magnet assembly (4-1), and then the dimming rope extends upwards to bypass a dimming roller (5-2) in the angle seat assembly (4-2), extends downwards to bypass a tensioning wheel (7-4) in the tensioning assembly (7), and then the dimming rope extends upwards to bypass the rear end of the tensioning wheel (7-4) in the tensioning assembly (7) and then is fixed with the lower end of the inner magnet assembly (4-1) in a net manner of extending, so that a tensioning loop with buffering is;

the angle seat assembly (4-2) comprises an angle seat body (4-2-1), an angle seat roller (4-2-3) arranged below the inside of the angle seat body (4-2-1) through an angle seat roller shaft (4-2-2), and a dimming roller (5-2) arranged above the inside of the angle seat body (4-2-1), wherein a screw hole (4-2-4) for screwing a set screw is formed in the angle seat body (4-2-1), and a hole (4-2-5) for plugging a lifting rope is formed in the bottom of the angle seat body (4-2-1); the side edge of the corner seat body (4-2-1) is provided with an upper fixing buckle (4-2-6) used for being arranged in the frame;

the tensioning assembly (7) comprises a tensioning wheel seat (7-1), a sliding block (7-2) arranged in the tensioning wheel seat (7-1) and a tensioning wheel (7-4) arranged in the sliding block (7-2) through a tensioning wheel shaft (7-3), a protruding shaft (7-5) is arranged at the upper part of the sliding block (7-2), a pressure spring (7-6) is sleeved on the protruding shaft (7-5), and the pressure spring (7-6) gives buffering force to the sliding block (7-2); the side edge of the tension wheel seat (7-1) is provided with a lower fixing buckle (7-7) for installing the window frame (1).

2. The single-handle line-control built-in hollow glass shutter as claimed in claim 1, wherein the frame (1) comprises an upper frame (1-1), a left frame (1-2), a right frame (1-3) and a bottom spacer bar (1-4); the upper frame (1-1), the left frame (1-2) and the right frame (1-3) are spliced through an angle of 45 degrees and then fixed through two upper corner connectors (1-5), and the bottom spacing bar (1-4) is fixed with the left frame (1-2) and the right frame (1-3) through two lower corner connectors (1-6); the left frame (1-2) and the spacing bars (1-4) at the bottom are internally provided with drying agents (1-7).

3. The single-handle line-control built-in venetian hollow glass window as claimed in claim 1, wherein the upper end of the dimming rope (5-1) is sleeved in a V-shaped groove of the dimming roller (5-2) and returns 180 degrees after half a turn.

4. The single handle line controlled built-in venetian hollow glass window as claimed in claim 1 wherein the venetian blind turn cord (5-6) is wound 1 and a half turns around the light regulating wheel (5-5).

5. The single-handle line-control built-in venetian hollow glass window as claimed in claim 1, characterized in that the bottom of the venetian blind (3) is provided with a weight lever.

6. The single-handle line-control built-in venetian hollow glass window as claimed in claim 1, wherein a weight block is arranged below the inner magnet assembly (4-1).

7. The single-handle line-control built-in venetian blind hollow glass window as claimed in claim 1, wherein after the semicircular transmission shaft (5-4) is inserted into the dimming roller shaft (5-3), the screw (4-2-7) is screwed and fixed through the screw hole (4-2-4) on the angle seat body (4-2-1) to prevent the semicircular transmission shaft (5-4) from moving axially.

8. The single-handle line-control built-in venetian hollow glass window according to any one of claims 1 to 7, characterized in that the number of the lifting ropes (4-8) is 2, the lifting system (4) comprises a first bracket (4-3), a second bracket (4-5) and a third bracket positioned between the first bracket (4-3) and the second bracket (4-5); one end of the 2 nd lifting rope is combined with the first lifting rope (4-8), the other end of the 2 nd lifting rope extends upwards after bypassing the inner magnetic seat lifting roller (4-7), passes through the side hole of the third support after bypassing the corner seat roller (4-2-3) in the corner seat assembly (4-2) and passing through the first side hole (4-3-1) of the first support (4-3), then bypasses the third wire rope corner roller positioned below the inner side of the third support, and then passes through the blind from top to bottom and is knotted and fixed in the weight rod at the bottom end of the blind.

9. The single-handle line-control built-in venetian blind hollow glass window as claimed in claim 8, wherein 3 light-adjusting wheels (5-5) are fixed on the transmission shaft (5-4), the 3 light-adjusting wheels (5-5) are respectively installed in the first bracket (4-3), the second bracket (4-5) and the third bracket, and venetian blind turning ropes (5-6) are wound on the 3 light-adjusting wheels (5-5).